Specific binding members for TGFbeta1

Chemistry: natural resins or derivatives; peptides or proteins; – Proteins – i.e. – more than 100 amino acid residues – Blood proteins or globulins – e.g. – proteoglycans – platelet...

Reexamination Certificate

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C530S387100, C530S388150, C424S142100, C424S156100

Reexamination Certificate

active

06492497

ABSTRACT:

FIELD OF THE INVENTION
The present invention relates to specific binding members, particularly antibodies and fragments thereof, which bind to transforming growth factor 1 (TGF&bgr;
1
). More particularly, the invention is concerned with specific binding members which include the VH CDR3 of the antibody SL15 (the antibody formerly known as Kylie), especially the SL15 VH domain, which may be in combination with the SL15A or SL15S VL domains. Furthermore, the invention relates to use of such specific binding members in pharmaceutical preparations, particularly for the treatment of fibrotic disease, the modulation of wound healing and the treatment of cancer.
BACKGROUND TO THE INVENTION
PCT/GB96/02450 published as WO97/13844 discloses the isolation of human antibodies specific for human TGF&bgr;
1
and human antibodies specific for human TGF&bgr;
2
. It describes antibodies with the 31G9 VH domain and variants of the domain. More specifically the application described the antibody CS37 that comprises the 31G9 VH domain together with the CS37 VL and variants of this domain, including antibodies which:
(i) compete in ELISA with CS37 for binding to TGF&bgr;
1
,
(ii) bind TGF&bgr;
1
preferentially with respect to TGF&bgr;
3
, and
(iii) neutralise TGF&bgr;
1
.
DISCLOSURE OF THE INVENTION
The present invention is based on identification of antibodies which are related to CS37, but which have unexpectedly advantageous properties with respect to binding and neutralisation of TGF&bgr;
1
. They do not bind to, or neutralise, TGF&bgr;
2
or TGF&bgr;
3
.
Antibodies of the present invention strongly neutralise active TGF&bgr;
1
. The epitope for these antibodies lies in the C-terminal region of TGF&bgr;
1
, (residues 83-112) and includes the loop consisting of residues 92-98 of TGF&bgr;
1
, also known as finger 2, a region which has been identified as interacting with the receptor for TGF&bgr;. The antibodies bind preferentially to active TGF&bgr;
1
with respect to latent TGF&bgr;
1
.
Variants of SL15S that strongly neutralise TGF&bgr;
1
are also disclosed herein. These vary mainly by amino acid substitutions in the CDR3 of VH or VL domains. There are, however, other sites where substitutions may be made, e.g. at residue 25 in the light chain an alanine may be substituted, generating the IgG4 antibody, SL15A IgG4, CAT-192. Several substitutions may be made that are compatible with the retention of strong neutralising activity. The antibodies of this invention will be particularly useful for treatment of fibrotic diseases, e.g. lung fibrosis, modulation of the scarring response, e.g. in wound healing and corneal scarring, and in other contexts discussed further below such as the treatment of tumors.
Specific binding proteins such as antibodies which are based on the complementarity-determining regions (CDRs) of the advantageous antibody VH and VL domains identified herein, particularly the CDR 3 regions, will be useful for the purposes discussed, and represent aspects of the present invention.
The most preferred embodiments of the present invention in its various aspects are based on the VH CDR3 of the SL15 VH domain identified herein, VH domains including the SL15 VH CDR3, especially the SL15 VH domain itself, and pairings of such VH domains with VL domains, especially the SL15A or SL15S VL domains, or other VL domain comprising the SL15 VL CDR3. The antibody antigen-binding domain SL15 (in whichever format, e.g. scFv or IgG4) consists of the SL15 VH and, in two variants, either the SL15A VL (CS37) or SL15S VL (CS37 with A25S). In either variant, SL15 is the antibody formerly known as Kylie. SL15S scFv is also known as CAT 191; SL15A IgG4 is also known as CAT-192, and SL15S IgG4 is also known as CAT-193.
Further embodiments of the invention in its various aspects are based on the JT182 VH CDR3, VH domains including the JT182 VH CDR3, especially the JT182 VH domain, and pairings of such VH domains with VL domains, especially the CS37 VL domain. JT182 is not as effective as SL15, but still has unexpectedly improved properties over CS37.
In a first aspect the present invention provides an isolated specific binding member capable of binding TGF&bgr;
1
, wherein said specific binding member comprises an antigen binding domain comprising a VH CDR3 with an amino acid sequence substantially as set out as VH CDR3 of SL15 or JT182 in Table 1 or Table 2.
TABLE 1
Anti-TGFb1 Clones - CDR3s & Relative Potencies of scFv
Approx IC
50
CLONE
(RRA)
VH CDR3
VL CDR3
CS37
10-15 nM
TGEYSGYDTSGVEL
LQDSNYPLT
(SEQ ID NO:14)
(SEQ ID NO:18)
JT182
0.5-1 nM
TGEYSGYDTPASPD
CS37
(SEQ ID NO:15)
SLI5
0.1 nM
TGEYSGYDTDPOYS
CS37(+L25 A to S)
(SEQ ID NO:13)
Residues that differ between the scFv fragments are underlined.
The invention further provides said isolated specific binding member which further comprises a VH CDR1 or VH CDR2 with amino acid sequences substantially as set out as one or both of the VH CDR1 and VH CDR2 of the CS37 VH, preferably both (Table 2).
TABLE 2
CDR Sequences of CDRs of CS37, SL15 and JT182.
Domain
CDR1
CDR2
CDR3
CS37 VH
SYGMH
VISYDGSIKYYADSVK
TGEYSGYDTSGV
(SEQ ID NO:11)
G
EL
(SEQ ID NO:12)
(SEQ ID NO:14)
SL15 VH
SYGMH
VISYDGSIKYYADSVK
TGEYSGYDTDPQ
(SEQ ID NO:11)
G
YS
(SEQ ID NO:12)
(SEQ ID NO:13)
JT182 VH
SYGMH
VISYDGSIKYYADSVK
TGFYSGYDTPASP
(SEQ ID NO:11)
G
D
(SEQ ID NO:12)
(SEQ ID NO:15)
CS37 VL
RASQGIGDDLG
GTSTLQS
LQDSNYPLT
(SEQ ID NO:16)
(SEQ ID NO:17)
(SEQ ID NO:18)
SL15S VL
RSSQGIGDDLG
GTSTLQS
LQDSNYPLT
(SEQ ID NO:19)
(SEQ ID NO:17)
(SEQ ID NO:18)
In a preferred embodiment, the binding domains are carried by a human antibody framework. One preferred example of such an embodiment is a VH domain with an amino acid sequence substantially as set out as the JT182 VH domain of which the sequence is set out in SEQ ID NO:10. A further preferred embodiment is a VH domain with an amino acid sequence substantially as set out as the SL15 VH domain, of which the sequence is set out in SEQ ID NO:4.
In a second aspect, the invention provides an isolated specific binding member capable of binding TGF&bgr;
1
, wherein said specific binding member comprises an antigen binding domain comprising a VL domain with an amino acid sequence substantially as set out as the SL15S VL domain, of which the sequence is set out in SEQ ID NO:8.
In a further aspect, the invention provides a specific binding member capable of binding TGF&bgr;
1
, comprising a VH domain as set out above with respect to the first aspect, and a VL domain, preferably wherein the VL domain has an amino acid sequence substantially as set out as the CS37 VL (SL15A), of which the sequence is set out in SEQ ID NO:6, or the SL15S VL, of which the sequence is set out in SEQ ID NO:8.
In a particularly preferred embodiment, the invention provides a specific binding member comprising the CS37 VL domain and a VH domain selected from JT182 VH and SL15 VH, most preferably SL15 VH. In a further particularly preferred embodiment, the invention provides a specific binding member comprising SL15 VH and SL15A VL (CS37 VL) or SL15S VL.
Preferred embodiments of the present invention provide specific binding members comprising the JT182 VH or SL15 VH domain in which 1, 2, 3, 4 or 5 amino acid substitutions have been made in a CDR, e.g. CDR3, and/or FR, which specific binding members retain ability to bind TGF&bgr;
1
. Further preferred embodiments provide specific binding members comprising the SL15A (CS37) VL or SL15S VL, or SL15A or SL15S VL domain in which 1, 2, 3, 4 or 5 amino acid substitutions have been made in a CDR, e.g. CDR3, and/or FR which specific binding members retain ability to bind TGF&bgr;
1
. Such amino acid substitutions are generally “conservative”, for instance substitution of one hydrophobic residue such as isoleucine, valine, leucine or methionine for another, or the substitution of one polar residue for another, such as arginine for lysine, glutamic for aspartic acid, or glutamine for asparagine. At certain positions non-conservative substitutions are allowable.
Such specific binding members are able to bind TGF&bgr;
1
. Preferred embodi

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